Pop-up sewer cleanout cap sensor

ABSTRACT

An improved sewer cleanout cap. The sewer cleanout cap sensor is installed to a sewer cleanout cap housing and contains a pop up embodiment to detect a back up in the sewer system due to numerous reason in the sewer system. This device helps to determine a problem in the sewer system and where the problem would most likely be. Making it quicker to resolve the problem so that a sewer spill could be prevented. But most of all, to prevent sewer spills, law suits and prevents from endangering wildlife, such as plants, animals, and aquatic life. Basically, it is to protect our environment and our water supply.

CROSS-REFERENCE TO RELATED APPLICATION

SEWER BACKUP INDICATOR APPARATUS:

-   -   App. No. 727,057 Patent Number: U.S. Pat. No. 5,687,761 Nov. 18,        1997

SEWER BACKUP INDICATOR:

-   -   App No. 685,496 Patent Number: U.S. Pat. No. 5,862,775 Jan. 26,        1999        -   Patent Number: U.S. Pat. No. 3,166,041 Jan. 19, 1965

BACKGROUND

1. Field of the Invention

This invention relates to sewer clean out caps specifically to animproved sewer clean out cap.

2. Description of the Prior Art

Numerous styles of clean out caps have been provided in prior art, butthey all basically all the same. Prior art clean out caps are all madeof solid piece of plastic or metal and some have mechanical moving partsbut don't hold a detection when sewer waters descend making it difficultto see if water levels in the sewer system has risen, and fallen due toobstacles in the sewer system. When the sewer system has a back up asewer department crew needs to first find the location of the problem,normally by opening sewer manholes and often releasing sewer waters intoour environment, numerous sewer manholes may needed to opened againreleasing raw sewage into our environment By using my invention problemsin the sewer system can be identified at a much earlier stage, then withthe prior art caps, due to the fact that sewers don't necessarily backup all at once, but most often a gradual progress. By locating theproblem without opening any manholes or cleanout caps sewer spillslessened preventing the endangerment of our environment and our watersupply. Basically by using my invention, problems in the sewer will beidentified sooner, the location of the problem will be located sooner,and problem can be resolved sooner and sewer spills will be preventedand the prevention of endangering our environment and our water supply.

BACKGROUND OF THE INVENTION

This invention relates to a sewer clean out cap, specifically to animproved sewer clean out cap The sewer clean out is a part of the sewersystem that is approximately 3 to 4 inches in diameter used to servicesewer lateral's that are connected to the main sewer line. The mainsewer line is usually any where from two to twenty-feet and sometimesdeeper underground. Clean outs are always ground level in which it maybe serviced when emergencies and maintenance is needed. Contractors andplumbers install clean outs to allow an entrance to service a sewerlateral by simply removing the sewer clean out cap, and then servicingthe sewer lateral.

Originally, these caps are made of a solid piece of metal or plastic.They are totally scaled and have no mechanically moving parts. Inaddition, there is no way to detect the water level in the sewer. Themain clean out of a home or business is usually a foot or a few feetinside the property line of a home, business or property. The cleanoutis a part of the sewer system that is ground level and is closer to thesewer lateral making it the first point of plumbing that could be usedto detect a backup in the sewer system, but because clean out caps aresealed there is no way to detect the water level in the sewer system ifwater levels were to rise. If these caps were to have a device thatwould notify residents or businesses before a serious back up in theirplumbing occurs which could prevent a sewer spill. A sewer spill couldrange from a gallon to thousands of gallons of untreated sewage, causinglaw suits by the Environmental Protection Agency and or closing ofbeaches, lakes, rivers, parks, schools etc., and endangering wildlifesuch as plants and animals.

Due to obstructions in the sewer system such as roots from plant andtrees, grease build up, grit, damaged sewer pipes, and other numerousreasons that causes back-ups. Sewer water levels may rise due to thevolume of water flowing through the sewer system and the size of thesewer pipe that the sewage is flowing through. As these obstructionsprogress in the system, the volume of water flowing through the systemwill reduce and or eventually could create a major backup and sewerspill.

After working for the City & County of Honolulu for more then eightyears, I came up with this invention, which could prevent a home orbusiness from a backup or prevent a major sewer spill in ourcommunities. What my invention will do is notify the public prior to acomplete back up or a possible sewer spill. All previous clean out capssuffer from a variety of disadvantages:

(a) Because all clean out caps are made of one solid piece, there is noway to determine where the problem lays. By not knowing where theproblem lays, it definitely would waste valuable time and can becomecostly. If the problem were to be on the City, County, State, or Federalside of the sewer system, through my experience if a private plumberwere to be called which often happens the homeowner or business thatcalled may be responsible for an unnecessary bill from a privateplumber. Because it is not the publics responsibility to service ormaintain any part of the governments sewer system. Any service doneoutside of a privately owned property line through my experience is theresponsibility of the governments.

(b) If the problem were to be on the private side, and the governmentauthorities were called, through my experience, valuable time again iswasted. In most cases, it is not the governments' responsibility toservice or maintain the private side of plumbing of a home or business.Then a private plumber would have to be called to take care of theproblem. Again, valuable time is wasted.

(c) Because these clean out caps are made of one solid piece, and nodetection was made at an early stage of the problem through myexperience restaurants and business's have been closed for a few hoursto a few days an even week's until the problem was resolved andtherefore plumbing could not be used.

(d) Because these caps are made of one solid piece, through myexperience homes have been flooded because a home located at the lowerend of a main sewer line may receive sewer water from the upper homes.Because water will always level off the home at the closest point upstream of the obstruction in the system will be like a release valve, inmost cases the tub and toilet is the point of over flow. Once the waterlevel exceeds the height of the tub and toilet sewer waters has floodedentire homes with raw sewage.

(e) Because the clean out cap is the only part of the sewer system aboveground level and is the closest to the property line of a private landowner, it is the first point of the system that could determine who isresponsible for a backup in the system. Nevertheless, because these capsare sealed there is no way to determine who should be called.

(f) Because these caps are made of one solid piece, there is no way todetermine if the water level in the system has risen and then fallen,due to the volume of water flowing through a sewer pipe and the size ofpipe it is flowing through. The percentage of the pipe being obstructedby the obstructions in the pipe, such as: roots, grease, grit or adamaged pipe reduces the flow in the mornings peak hours between (5:00am to 10:00 am) when people start their day, water levels may rise dueto the volume of water use of the public, the volume of water flowingthrough the system and the percentage of the pipe being obstructed. Thelevels fall as the volume of water entering system lessens after peakhours. This is the same for evening peak hours (4:00 pm to 10:00 pm),when people end their day. Because there is no detection made by theclean out cap, water levels may rise and fall for weeks to months beforeany indication of a backup or sewer spill occurs.

(g) Main sewer lines are connected to sewer manholes and often fillsewer manholes with sewer water for blocks or more. But because manholecovers weighs about two hundred and in some cases are equipped with arain catcher to prevent infiltration of rain water it also seals sewerwater from exiting the sewer manhole, preventing a detection of a backupor a possible spill. But then again because the cleanout cap are sealedwater presser cannot be detected in the sewer system. Though myexperience, living in the State of Hawaii where we are surrounded byocean sewer spills have closed beaches, lakes, canals, rivers etc.

SUMMARY OF THE INVENTION

In accordance with the present sewer clean out cap, with a sensordevice, that will detect if the water level has risen and still showsdetection if water level has fallen. To determine where the problem issooner and possibly take care of the problem before sewage exits thesewer system. If every cleanout in every community, city and state had asenor, problem areas in the sewer system may be identified state wide,it may be as being able to see under ground. And to determine more orless who is responsible of taking care of the problem. Nevertheless,most of all detect a possible back up, prevent a major sewer spill,prevent unnecessary law suits from the Environmental Protection Agency,prevent the closing of beaches, lakes, rivers, and businesses, etc. Alsoprevent the endangering the wildlife such as plants, animals and aquaticlife. Basically, protecting our environment and our water supply.

OBJECTS AND ADVANTAGES

Besides the objects and advantages of the pop up sewer clean out capsensor, as described in the above patent, several objects and advantagesof the present invention are:

-   -   (a) to provide a clean out cap with a device that will detect a        problem in the sewer system.    -   (b) to provide a clean out cap that will detect the water level        and determine if the water was to rise. In addition, to keep a        detection if water level was to fall. Due to obstructions in the        system such as grease, roots, grit or a damaged pipe during all        hours.    -   (c) to provide a clean out cap that will determine who is        responsible for a sewer back up either, a private homeowner or        government authorities. Before a spill occurs.    -   (d) to provide a clean out cap that will save private homeowners        or business an unnecessary bill from a private plumber, by        informing the public that they may not be responsible for the        problem.    -   (e) to provide a clean out cap with an extremely obvious site of        an erected sensor to the public, should the public be a        resident, pedestrian or a driver and while the sensor is erected        during the day or at night    -   (f) to provide a clean out cap that may prevent a restaurant or        business from not being able stay in operation, because plumbing        cannot be used for awhile or as long as it might take to resolve        the problem.    -   (g) to provide a clean out cap that will detect a problem in the        sewer system at an early stage, allowing time for maintenance or        repairs before the problem progresses into the serious stage.    -   (h) to provide a clean out cap that may prevent homes located at        the lower end of sewer system and bottom units of an apartment        or condo from being flooded by sewer water. That may come from        the up stream flow of the sewer system or from the upper units        of an apartment or condominium. By notifying the sewer        department or sanitary district of an erected sensor by a        resident or public, before a complete blockage occurs, a repair        could be scheduled before a complete blockage occurs.    -   (i) to provide a clean out cap that may prevent schools and        public facilities from being closed due to unsanitary        conditions.    -   (j) to provide a clean out cap that may prevent a major sewer        spill causing a gallon to thousands of gallons of raw sewage        that could enter streams, rivers, lakes, beaches committees.        That could cause them to be closed to the public.    -   (k) to provide a cleanout cap being inexpensive and providing an        inexpensive system, that will canvass a neighbor hood,        community, county city and state that monitors sewer water        levels in the sewers, while having the public help identify        problems in the sewers and help protect our environment    -   (l) to provide a clean out cap that can monitor sewer water        levels in the sewer system for blocks and the entire sewer        system of a sewer department or a sanitary district, making and        obvious indication to the public, that water levels has risen in        the sewer system. Rather then having just the sewer department        or the sanitary district monitoring and performing maintenance        on the sewers, the public can be the eyes and ears and call to        the sewer department or sanitary district when detections are        made.    -   (m) to provide a clean out cap that will help the sewer        department or sanitary district save time locating were the        problem in sewer system would most likely be, after receiving        the call, (for example) If a sewer worker got a call about slow        drainage from a home on block B, when he arrives he notice that        the sensor is in its neutral position, because there is no        pressure against the sensor, the problem is most likely at the        private side of the plumbing.    -   (n) to provide a clean out cap that will help the sewer        department or sanitary district save time locating were the        problem in sewer system would most likely be after receiving the        call. If a sewer worker got a call about an erection of a        sensor, when the worker arrives at the location he notices (for        example) that a sensor on block B, is erected and all other        sensors on that block are in their neutral position, then it        would most likely be that the problem is in the sewer lateral        connecting the home on block B, to the main sewer line. And he        can decide what is the most efficient equipment to use to        resolve the problem.    -   (o) to provide a clean out cap that will help the sewer        department or sanitary district save time locating were the        problem in the sewer system would most likely be after receiving        the call. If a sewer worker got a call about an erection of a        sensor, when the worker arrives at the location he notices (for        example) that the sensors on block B,C and D is erected but the        sensors on block A and E were in it's neutral position. By        examining his map he finds that, block E is the upstream and        flows down to down stream block A, he also notices that the        first ten homes at the lower end of the sewer system on block B,        is in the neutral position and the other ten homes on block B,        is in its erected position. He will know that the problem in the        sewer is in the main sewer line of block B, between the tenth        and the eleventh house, of block B. His map also shows him where        the closet or most efficient manhole is located, he then        determines the most efficient equipment he will use to release        the problem, before a spill begins    -   (p) to provide a clean out cap that will basically help protect        our environment and our water supply.

Further objects and advantages are to provide a clean out cap thatsimply replaces the existing clean out caps. Saving money for privatehomeowners and the government, preventing unnecessary bills andlawsuits, to provide a cleanout cap that will locate the location of aproblem in the sewer system with out opening any part of the sewersystem. Furthermore, this invention will also prevent the closing ofpublic access to lakes, rivers and beaches and endangering plants,wildlife and aquatic life and protecting our environment and watersupply.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

FIG. 1 shows a side view of an extendable pop-up sewer cleanout capsensor fully assembled in a retracted position.

FIG. 2 shows a top view of my invention fully assembled in a retractedposition.

FIG. 3 shows a side sectional view of my invention attached to a sewercleanout cap housing fully assembled in an erected position with sewerwater levels high. With a sensor extension attached

FIG. 4 shows a top view of my invention excluding the erectable sensorsection.

FIG. 5 shows in a below ground view of the pop-up sewer cleanout capsensor attached to a sewer cleanout cap housing fully assembled in fulloperation with sewer water levels high.

REFERENCE NUMERAL IN DRAWINGS

-   -   1 cylindrical housing    -   3 cylindrical body    -   5 seal    -   7 top brake (having a bright color)    -   9 bottom brake    -   11 seal-rings    -   13 channels    -   15 external treads    -   17 reservoir    -   19 glowing device    -   21 aperture    -   23 water resistant glue    -   25 lubricant    -   27 cleanout cap housing    -   29 private side of plumbing    -   31 beginning of sewer system    -   33 liquid under pressure    -   35 recess    -   37 notch    -   39 pin    -   41 brake seat    -   43 bottom brake treads    -   45 presser seal    -   47 additional brake    -   49 extension brake    -   51 sensor extension    -   53 safety screws

DETAILED DESCRIPTION OF THE INVENTION

Provisional Application Filling date: Feb. 8, 2003. ProvisionalApplication Number: 60/445,863. International Application No.PCT/US2004/003777. A cylindrical housing 1, is illustrated in FIG. 1. Inthe preferred embodiment cylindrical housing 1, is made of a rigidmaterial, such as ABS (Aciryalonitrile-Butadiene-Styrene),PVC-(Poly-VinylClorite). However, cylindrical housing 1, can consist ofmetal, plastics, or a combination etc., of other rigid materials.Cylindrical housing 1, comprising of a external threads 15, a aperture21, a channels 13, a recess 35, as shown in FIG. 1, 2, 3, 4, 5 and a ormultiple seal-ring 11, on inner wall of cylindrical housing 1, as shownin FIG. 3. A seal 5, made of a durable material or a combination ofmaterials that will withstand the atmosphere of the sewer system, suchas foam, sponge, rubber, plastic, cork, hide, metal etc, are attached tothe inner wall of cylindrical housing 1, and beneath, and or aboveseal-rings 11, of cylindrical housing 1, using a water resistant glue23, as shown in FIG. 3. Seal 5 is then primed by applying a lubricant25, on the inner section of seal 5. Where a cylindrical body 3, made ofa rigid material or a combination of materials, such as,PVC-(Poly-Vinyl-Clorite), ABS (Aciryalonitrile-Butadiene-Styrene metals,etc, and seal 5, meet as shown in FIG. 3.

Cylindrical body 3, consisting a top brake 7 (having a bright color) andtreads at the bottom end of said cylindrical body 3. Cylindrical body 3,is first lubricated using lubricant 25, the entire length of thecylindrical body 3, then the bottom end of cylindrical body 3, isinserted thru cylindrical housing 1, aperture 21, and seal 5, as shownin FIG. 3. The length of cylindrical body 3, is determined by the depthof the service line of the private side of plumbing 29, as shown in FIG.5, the cylindrical body 3, or any part of the sensor should not blockthe service line of the private side of plumbing 29, or interfere withthe flow of any sewer water. A glowing device such as pigment, tape,paint, light, etc 19, (having a color different from color on top brake7,) are attached to cylindrical body 3, directly under top brake 7, bymeans of adhesives, fastening means, etc as shown in FIG. 3, 5. Topbrake 7, made of a rigid material such as PVC, ABS, metals, etc isattached to cylindrical body 3, by cast, molded, screws rivets, etc asshown in FIG. 3. A bottom brake 9, also made of a rigid material such asPVC, ABS, plastics, metals etc., is attached to the bottom section ofcylindrical body 3. By fastening means such as corresponding treadsrivets, screws, adhesives, 43, to cylindrical body 3, as shown in FIG.3. A presser seal 45, made of durable material such as rubber, foam,plastic etc is fastened to bottom brake 9, additional brake 47, orextension brake 49, using water resistant glue 23, etc as shown in FIG.3. A additional brake 47, made of a rigid material such as PVC, ABS,plastics, metals etc., is attached to a desired location of thecylindrical body 3, using safety screws 53, to determine the desiredheight of erection as shown in FIG. 3. An extension brake 49, made of arigid material such as PVC, ABS, plastics, metals etc., may be attachedthe cylindrical body 3, By fastening means such as corresponding treadsrivets, screws, adhesives, 43, An sensor extension 51, made of a lightand or buoyant material such plastic, foam, etc is fastened to extensionbrake 49, using fastening means such as water resistant glue 23, andsafety screws 53, as shown in FIG. 3 making the pop-up sewer cleanoutcap sensor more sensitive to even a slight rise of sewer water.Lubricant 25, is poured into a reservoir 17, thru aperture 21. The spacebetween the cylindrical body 3, and the cylindrical housing 1, forms thereservoir 17, which holds the lubricate 25, as shown in FIG. 3.Cylindrical body 3, is then pushed in a downward direction until topbrake 7, meets cylindrical housing 1, and sits in the recess 35, held inposition by a brake seat 41. The recess 35, allows my invention to havea flat surface as shown in FIG. 1. A notch 37, also allows a pin 39,made of the same material or a rigid material such as a metal to belocated below the flat plain of top brake 7, as shown in FIG. 3. Alubricant 25, such as grease lubricates top brake 7, and recess 35, andalso seals the reservoir 17, and prevents foreign objects from enteringthe reservoir 17. My invention is then installed by applying grease,anti cease, lubricant 23, etc., to a cleanout cap housing 27, andscrewing cylindrical housing 1, into cleanout cap housing 27, usingexternal threads 15, and channel 13. The channels 13, is used to tapcylindrical housing 1, in tightly. Using a apparatus to tighten thecylindrical housing 1, to a clean out cap housing 27.

DESCRIPTION OF THE OPERATION—

The advantage of using the pop-up sewer cleanout cap sensor is to detecthigh water levels, due to obstructions in the sewer system as shown inFIG. 5. My invention is fully assembled at a neutral position as shownin FIG. 1. The pop-up sewer cleanout cap sensor is installed into asewer cleanout cap housing 27, as shown in FIG. 3, 5. The pop-up sewercleanout cap sensor is installed by screwing a cylindrical housing 1,into a sewer cleanout cap housing 27, using a external threads 15, and achannels 13. Channels 13, having a wall separating recess 35, are usedfor gripping and tapping cylindrical housing 1, firmly, using a tool, ora block of wood and a hammer or screwdriver as shown in FIG. 5. A topbrake 7, prevents the cylindrical body 3, from descending and separatingfrom cylindrical housing 1, while in a neutral position. When a back upoccurs, water levels may lubricate the bottom section of cylindricalbody 3, below seal 5, with sewer water while a lubricate 25, lubricatesseal 5, the water presser will push cylindrical body 3, and top brake 7,(having a bright colored finish different color from the glowing devise19,) in an erected position above ground. The top brake 7, (having abright colored finish having a different color then the glowing device19,). Being that sewer spills are extremely threatening to ourenvironment a bright colored finish makes the sensor easier to locate.Making an obvious detection if the pop-up clean out cap sensor islocated in lawn, or garden area, while a glowing device 19, (having adifferent color from color of top brake 7,) will make a detection atnight possible and during day hour being that a different color will benoticed. If the cleanout is located in an area of traffic such as adrive way or sidewalk the additional brake 47, will brake thecylindrical body 3, at a desired height preventing damage to sensor fromvehicles and hazards from pedestrians as shown in FIG. 3. Being that theglowing device 19, is located directly under top brake 7, even a slighterection will show a detection. The bright color on the top brake 7,indicates the location of the pop-up sensor while the glowing devise 19,indicates an erection during the day and night showing a different colorand not confusing the erection of the location of the sensor. Thecircumference of seal-ring 11, allows the cylindrical body 3, to passthrough seal ring 11, and thought seal 5, a circumference to narrowmaking it impossible for a bottom brake 9, and additional brake 47, andextension brake 49, to pass through the seal-ring 11, as shown in FIG.3. The presser from the rising sewer waters causes the presser seal 45,to compress when the sensor is erected producing a tighter seal thehigher sewer waters rise. The Seal-ring 11, is used for securing seal 5,in position and preventing seal 5, from slipping in an upward positionwhen sewer water levels and water pressure rises. Seal 5, is used toprevent sewer water from leaking out from cylindrical housing 1, Asrequired by EPA laws that no sewer waters should exit a sewer cleanout,while under water pressure and to prevent rainwater from entering thesewer system from cylindrical housing 1, as shown in FIG. 3. AlthoughSeal 5, is lubricated it has a firm grip of cylindrical body 3, forsupporting cylindrical body 3, while in an erected position under waterpressure and if water levels and pressure were to descend. Cylindricalbody 3, is the embodiment that actually detects if sewer water level hasrisen to a certain height and holds a detection if water descends. Abottom brake 9, additional brake 47, or extension brake 49, preventscylindrical body 3, from separating from cylindrical housing 1, whilewater presser forces cylindrical body 3, to its erected position. Thebottom brake threads, screws, rivets, adhesives, 43, used to connect thebottom brake 9, additional brake 47, or extension brake 49 to thecylindrical body 3 and to have a means to connect and disconnect thecylindrical body 3, from the cylindrical housing 1, for repairs to thepop-up cleanout cap sensor, should either the cylindrical housing 1, orthe cylindrical body 3, be damaged, one or the other could be replacedand the other saved. The sensor extension 49, make's the pop-up sewercleanout cap sensor extremely more sensitive being that the closer thebottom of the sensor extension 51, is to the normal height of the sewerwater the quicker the sensor will produce an erection if sewer water wasto rise lubricant 25, such as grease lubricates top brake 7, and recess35, from restriction and also seals the reservoir 17, and preventsforeign objects from entering the reservoir 17, For maintenance purpose,with my invention fully installed cylindrical body 3, is erected to itsfull extension by pulling top brake 7, in an upward direction using pin39, a lubricant 25, is then poured in to a reservoir 17. The lubricant25, used to lubricate cylindrical body 3, and seal 5, to preventrestriction of movement while cylindrical body 3, is being erected asshown in FIG. 5, the sewer water may also lubricant the section ofcylindrical body 3, under seal 5, before the pressure of the sewer watererects the cylindrical body 3. Then cylindrical body 3, is pushed backto its neutral position. The pin 39, is used for maintenance purpose thesewer cleanout cap sensor can be maintenance by pulling pin 39, in anupward position while lubricate 25, in reservoir 17, lubricatescylindrical body 3, and seal 5, then pushed back to its neutral positionas shown in FIG. 1. After a or multiple erections are made the sensorare pushed back to its neutral position, to detect another day.

While I have shown and described in considerable detail what I considerto be the preferred form of my invention, it will be understood by thoseskilled in the art that various changes may be made in the shape andarrangement of the several parts of the device, and that such detailsare not intended to limit the scope of the claims.

1. A pop-up sewer cleanout cap sensor, connected to plumbing forindicating a back-up in the sewer and hold a detection if sewer waterlevel drops which comprises: a) a first outer housing, vertically havingan opening at the top and bottom end of said first outer housing, foraccommodating the movement of a first inner body. b) a first inner bodyvertically positioned within of said first outer housing for verticalmovement of retracted and erected position, and also including at leastone top brake positioned horizontally at the top end of said first innerbody, and including at least one bottom brake located alongside thelongitudinal axis of said first inner body, positioned within the lengthor at the bottom end of said first inner body.
 2. A pop-up sewercleanout cap sensor as defined in claim 1 and further including a firstouter housing platform located at the top end of said first outerhousing, for accommodating a means of clutching the of said first outerhousing for the connection to plumbing, and for accommodating a seat forpositioning the said top brake in a neutral position, and also foraccommodating an aperture for accommodating the passage of said firstinner body vertically positioned through the of said first outerhousing.
 3. A pop-up sewer cleanout cap sensor as defined in claim 1 andfurther including an aperture within the said first outer housingplatform and for the accommodation of said first inner body and of saidtop brake, allowing the surface of said top brake to be level with saidfirst outer housing platform and allowing the pop-up sewer cleanout capsensor device to be level, above or below with of said first outerhousing platform.
 4. A pop-up sewer cleanout cap sensor as defined inclaim 1 and further including at least one brake seat locatedhorizontally within the circumference of said aperture of said firstouter housing platform, for accommodating the said top brake, recessingthe said top brake vertically within of said first outer housingplatform, to position the surface, of said top brake, horizontally levelwith the surface of said first outer housing platform, restricting ofsaid top brake from descending within of said first outer housing andfurther allowing a gap between of said brake seat circumference andperimeter of said first inner body for the entrance of a lubricant.
 5. Apop-up sewer cleanout cap sensor as defined in claim 1 and furtherincluding at least one means of connection along the perimeter of saidfirst outer housing, having corresponding means for the connection toplumbing, and for containing liquid under presser with in the sewersystem.
 6. A pop-up sewer cleanout cap sensor as defined in claim 1 andfurther including at least one means of clutching the said first outerhousing along the top surface of said first outer housing platform, fora connection and disconnection of the said pop-up sewer cleanout capsensor, to plumbing.
 7. A pop-up sewer cleanout cap sensor as defined inclaim 1 and further including a barrier separating the said aperture ofsaid first outer housing platform and said clutching means of said firstouter housing platform, and horizontally level with said first outerhousing platform for restricting of liquids and foreign debris fromentering the pop-up sewer cleanout cap sensor unit.
 8. A pop-up sewercleanout cap sensor as defined in claim 1 and further including at leastone or multiple means of positioning and securing the position of a sealat the top and or bottom of said seal within the inner wall of saidfirst outer housing within the top and or bottom section of said firstouter housing and further providing a second and or third braking meansshould the of said top brake of first inner body descend from of saidbrake seat, and also including at least one or multiple means of brakingthe said bottom brake of said first inner body from ascending from ofsaid pop-up sewer cleanout cap sensor.
 9. A pop-up sewer cleanout capsensor as defined in claim 1 and further including at least one sealhaving connection means secured within of said inner wall of said firstouter housing and beneath and or above of said securing and positioningseal means, for embracing of said first inner body and containing aliquid under presser from existing the pop-up sewer cleanout cap sensorunit and also having a firm hold on the of said first inner body oncethe pressure of the sewer waters has pushed the first inner body in anerected position, and holding the said first inner body in the erectedposition if the presser of sewer waters descends and holding a lubricantwithin of said first outer housing and first inner body, said seal mayor may not consist of multiple materials, and multiple chambers for morethan one means of securing the first inner body and holding a lubricatewithin of said first outer housing and said first inner body, chambersmay or may not consist of an inlet or an outlet to allow a lubricant tolubricate the said seal, due to erosion from the elements in the sewersystem.
 10. A popup sewer cleanout cap sensor as defined in claim 1 andfurther including at least one reservoir located within the of saidfirst outer housing positioned above and or below of said seal, forcontaining a lubricate within of said first outer housing and theperimeter of said first inner body.
 11. A pop-up sewer cleanout capsensor as defined in claim 1 and further including a means oflubricating of said seal and said first inner body for eliminatingrestriction, between the of said seal and of said first inner bodyduring the erection of said first inner body when sewer water underpresser arises.
 12. A pop-up sewer cleanout cap sensor as defined inclaim 1 and may or may not have a substantially open bottom end of saidfirst outer housing for the admission of a said liquid under presser,allowing the said liquid under presser forcing the of said first innerbody in an erected position.
 13. A pop-up sewer cleanout cap sensor asdefined in claim 1 and further including the of said first inner bodyand further including at least one top brake and further including atleast one bottom brake.
 14. A pop-up sewer cleanout cap sensor asdefined in claim 1 and further including a top brake as defined in claim13 positioned with in of said aperture and held by said brake seat, forbraking of said first inner body from descending through the said firstouter housing and also having a colored finish opposite of color of saidfirst outer housing platform for a noticeable separation between thesaid first outer housing and or the location of the pop-up sewercleanout cap sensor being that sensor may be located in various terrainor pavement.
 15. A pop-up sewer cleanout cap sensor as defined in claim13 and further including a recess at the top surface of said top brakefor accommodating a means of grasping the of said top brake for manuallyerecting the said first inner body, for the maintenance of said pop-upsewer cleanout cap sensor.
 16. A pop-up sewer cleanout cap sensor asdefined in claim 13 and further including a means of grasping within ofsaid top brake recess of the said first inner body for manually erectingthe said first inner body for lubricating the first inner body.
 17. Apop-up sewer cleanout cap sensor as defined in claim 13 and furtherincluding a day and night alerting means, having fastening means,connected to the of said first inner body, positioned directly under theof said top brake, having a third color opposite of said top brake andsaid color of said first outer housing platform for a indication ofseparation between top brake and first outer housing platform during thelighted time to inform that the said liquid under presser has forced thesaid first inner body to and erected position meaning the level of thesewer is greater than desired, the alerting means may or may not have asource of energy and may have a means of glowing in total darknesswithout the means of light.
 18. A pop-up sewer cleanout cap sensor asdefined in claim 13 and further including a means of a connection and ordisconnection to the said bottom brake.
 19. A pop-up sewer cleanout capsensor as defined in claim 13, an further including at least one bottombrake, having connection and or disconnection means to the bottom end ofsaid first inner body, for the closure of said first inner body sealingthe space within said first inner body making the first inner bodybuoyant, the bottom brake is positioned just above the normal flow ofsewer water to ensure a quick response of a back up in the sewer system,an additional bottom brake may or may not be added along the outerperimeter of the said first inner body for the desired height oferection of said first inner body to eliminate an undesirable height oferection, should the pop-up sewer cleanout cap sensor be in an areawhich a minimal erection is desired, as such a walkway or drive way. 20.A pop-up sewer cleanout cap sensor as defined in claim 13, an furtherincluding at least one means of sealing area between the said brake andsaid first outer housing while sewer water rises.
 21. A pop-up sewercleanout cap sensor as defined in claim 13, an further may or may notinclude an extension of said first inner body to allow the bottom ofsaid first inner body to be positioned in phantom at a desired depthclosest to normal sewer flow without disturbing flow of sewer makingsensor extremely sensitive, and having at least one fastening means tofasten and seal said extension to said bottom brake, extension may ormay not consist various shapes and characteristic feature.
 22. A pop-upsewer cleanout cap sensor as defined in claim 13, an further includingat one safety fastening means fasted to all brakes and embodiments toprevent any embodiments from descending into sewer.